Internal combustion power unit



Aug. 16, 1938. J. KOCH 2,127,222v

INTERNAL COMBUSTION POWER UNIT Filed May 14, 1937 4 Sheets-Sheet 1 IN VENTOR Ly/v/v J Koo/1 WTTORNEY 8 fi Z a mm a L. J. KOCH INTERNAL COMBUSTION POWER UNIT Aug. 16, 1938.

Filed May 14, 1937 4 Sheets-Sheet 2 22'. lama-25' Tf/ja j fi'fj F50 F.7d:

Aug. 16, 1938.

L. J. KOCH INTERNAL COMBUSTION POWER UNIT Filed May 14, 1937 4 Sheets-Sheet 3 L YNN IN VENTOR I KOCH M W A TTORNE y Aug. 16, 1938. L. J. KOCH V INTERNAL COMBUSTION POWER UNIT Filed May 14, 19s7 4 Sheets-Sheet 4 [1Q VENTOR I J KOCH A TTORNEY *Pefiemed Aug.l$,1938 v 2 322 222 This invention reimes "w new and useful am chamber is eubieetefii. it is pmpesed to convey movements in an internal eembwetiem power flee pewer 01? the gases be the main cylinunit particularly devises? for'the gmmoee e3 creat e1 the engine are Reeve? eemperetmes than and increasing the pewex f engines, m: pest hereteime witheut inteflei'ing' reducing the tieuiar piston dispiecemems, move their preeem, 5 ebfiieiee, is @Eepeee fl te previde en arrangement by The inventien has fez abject the eenstwe Wm *1 the in duster ei e'iqsiesion chamfiqm Q3 5: device mgntwae fi will incregge KEEPS me fired and fielivez'ed him the cylinder of w 95 12 123133? 1; m wh h i the engine at memem of greefisesi: force upon r t is m SQ -m e th d n the mama, making; e23 down expending evokes 1% U gm (mam {m ggngmfgggh gaygficg pnwea' etmke and mm eenver'aing the usual na g 13119 1% 5 pgemgimg r-1, e mevemen: e; an to a stronger 3A.. in a meimez @e el'nm'ee 'ifi'ae 3 Qu c e e e fl u io aqgim. em"- a for greatez delivery 03 15 Ii; s gerepasesl fie s0 arrange the it 35 be US$21 wmwfifimn with vmqwg g It is paegmeefi w adept the pawer unit as that engines, math 5 my 0? 0f the leeemmive 753% ew iefi @f m ethers e fizmet-efi aecerding; e, great H 33 $331M? iffesmgbive 93 the WP? vaeiety; differs 2 egsemmone and. glzcmeipilew 49? We, and

T29 either water eseierl, an cooleal, er etherwise mgl engines 05 29 sealer and ezsemteei. EM w i wpe cylin g mfi m we i g fl wmemmmeg 'fiBZ' e": the straight femmmon, and emstmetien of an internal eembustien pews? wait and power eeester which is efimmefiex'ized mest 9f this imyemiw Yesides m a, er cempressim chamber egemg emiesien ellemiser ef the muster ef explosien induction ehambezi' be mevided my me eemee @imk me and thereafter a tin as an @1022 m a quantity ef igzeitabie gaseeus eehemnee 3331750? e m gases- (it 1%? mw 3-0 g -5 cgfi'bufemf gr mm;- swmg, 5 pmvide e resiliently smppertefi pieten for this 30 which the gaseeus subemnce is packed e2- cam WW W13 E38 1 fie emmmfiaet the pressed mm a, pgckjzgg r wmpg'eggmn chamber exmameion ef the minted gases emf. m first recede in e, pemcular manner. it is also cememieiem 311%? fi fi 531% exphswn and ha to that 9, m ans b p vmezi im' cgnmglfing m9 ezvmmee and em as e pusher and assist; and ac- 3s or pesmage of Sam mixture in pee-cheereeiemfie the Wide e ndme eases and act mined sequence irem smd packing er campus- W E fifv thrust n he piston 0f the sion chamber to said cluster 0? exploeien ehem= 6393mm? 0f he E ine m which the unit is here. It is proposed that a means tee pmvfided atwfihfid and W exert Emil v e dditienal for 'girematurely igniting the gases in the efx= W Wifihfiui; m graater ww p iw 05 fuel.

4 plmgign @hambers m pmdetemflngd g ag it is a fim'ther object of this invention to pro- 40 for connecting in sequence saiccl explesiem chem: & fi E i mflv bly meumted across new, ith th cyflnfiem n engine and the hemem ends @f the cluster ei emission chamehrenized with the running 033 the'engme to de- 'PBTS 99 30mm W885 iv? these mb rs- It is live! a ower streize for each downward mum m-s w prev-Me this disc i e pert hole for #3 of the piston of said cyfiinder. the esee me M We gases from the chambers. It Witka the arrange'mefit epecified in we previ is prolwsefi fifigflfiiaie wnvemee tube with nus yeez'egreph u; is peesibie t0 mmerieliy in me p r m M e p cula design and shape crease the number 0? revewtinns 0i an engine, fer emeiem whim, @ml it is 9 9 8 to so 81- '50 strengthen the eycle. pmver and amaze 01? me range the eeeveyme tube that it will direct the engine, and t0 greefiiy Eeduee the mm m the discharge ei me gases mean the tap of the pis- 50 22min cylinder of the engine. with the arrange ion of e cylinder 01 an engine to which the unit ment of the clusisea' 0f explnswn chambers it is is associated.

possible by systematieel ewti'el to rotate me ex- Furthermore, the invention contemplates the ploslons in these explosion chambers and s0 aiuse of a shutter operating in eeniunct ion with.

vide and thus reduce t ne gee; w whim each the disc memmmed in the previews paragraph invention.

and arranged to .be used in place of the valves of the engine for opening and closing the ports to each cylinder to allow for the intake and exhaust of gases, and it is proposed that this shutter be fitted with a gear for its proper timing and synchronization with the operation of the other parts of the power unit.

A further advantage gained by using a power unit accordingtc this invention resides in the fact that the stroke of the piston in the cylinder of an engine may be increased since the necessity of a compression chamber above the piston has been eliminated. It is possible for the piston to move completely to the end of the cylinder requiring but a very small space in contrast with the comparatively large compression chamber heretofore required.

With these ends in view and, others which will become clear as this specification proceeds, this invention consists in the details of construction and combination of the elements hereinafter more specifically set forth, and particularly des= ignated by the claims. in order that those skilled in the art to which this invention appertains may understand how to maize and use the same, the construction or one or more forms of the invem tion will he in details, referring to the numerals accompanying the drawings, forming part of this specification, in which:

Fig. l. is rtly elevational view a the power unit applied to two-cycle engine, ce oi the the invention and would be understood by those parts in the icreground away to disclose interior Fig. 215;: a vies-i similar to that shown in. is. i with'tlie piston shown in its top position.

Fig. 3 is a horizontal sectional view tel-zen on the line of Fig. i.

Fig. a is another view similar to i but illustrating the power unit applied to a icon cycle engine.

Fig. 5 is a view similar to l illustrating the condition of the parts when the piston of the cylinder of the engine is in its top position.

Fig. 6 is an enlarged detailed plan view of Fig. 4-.

Fig. l is a sectional view taken on the line 5- 1 01 Fig. 6.

Fig. 8 is a sectional view taken on the line H of Fig. 7.

Fig. 9 is a view similar to Fig. 8 but showing the parts when the piston is in its down position.

Fig. 10 is a horizontal sectional view taken on the line l0ll of Fig. 9.

Fig. 11 is a horizontal sectional view taken on the line ll-li of Fig. 9.

Fig. 12 is ahorizontai sectional view taken on the line l2-l2 of Fig. 9.

Figs. 13a, 136,130 and ISdare schematic illustratlons to show the difl'erent positions of the shutter valve at the top of the cylinder when the piston of the cylinder is at various positions.

- Fig. 14 is a fragmentary enlarged sectional view of a portion of a modified form of power unit constructed according to a modification of the cycle engine has been disclosed equipped with a power unit according to this invention. This twocycle engine comprises a cylinder l5 which is provided with a crank shaft i6, and in which a piston I1 is mounted. A connecting rod I8 connects the piston with the crank shaft. Interme- This portion particularly relates to- -The exhaust enemas usual exhaust ports I9. The other details of the two-cycle engine and its operation will not be given in this specification as it forms no part of skilled in the art. At this point it maybe mentloned that the cylinder 15 is provided with a. water cooling jacket 20, though thisis not in tended as a limitation since other cooling systems may be used without interfering with the operation of' the power unit.

The power unit, according to this invention, is mounted on the top of the cylinder Iii. It includes a body 2| which is supported by several braces 22 above the end of the cylinder is. There is an inlet connection 23 to the body 2! through 1 which a gas mixture from a carburetor or other similar unit may be connected. The details of the carburetor or other unit will not. be disclosed nor further discussed in this specification since it forms no part of the invention. interposed between the body 2i and the top of the cylinder it there is a. rotary passageway tube 2% connected in a particular manner between the body it and the cylinder 5 as hereinafter more specifically described. This tube 29 is driven by a gear 2 2 mounted coavially upon its lower end portion. This gear meshes with a pinion 25 on a shaft rctatively supported in bearings and associated with bevel gears connected with the creol id. This drive constitutes the means for s3 line as more particularly set forth hereafter.

in Fig. 2 the piston ll is illustrated in its top csition. Attention is called to the fact that the assageway tube 2% is also in it moved position.

the power unit, this four-cycle engine will be converted so that there will he a power stroke for each movement of the piston downwards.

This four -cycle engine includes a cylinder is with which a crank shaft it? is associated. Within the cylinder there is the piston ll connected with the crank shaft by the connecting rod is. for the engine is arranged at the top of the cylinder and the exhaust pipe is indicated by reference numeral E9. The cylinder i5 is provided for the water cooling jacket The details of operation of the four-cycle engine will not be given in this specification since it forms no part of the invention and would be readily lmown to those skilled in the art.

A power unit, according to this invention is applied to the four-cycle engine and includes the body 26 supported by braces 22 upon the top oi the cylinder it. There is an inlet 23 for a gas mixture from a carburetor or the like. A passageway tube 29 is associated with the body and with the top of the cylinder 55' as hereinafter more fully described. A drive system is provided for synchronizing the power unit with the engineand includes a gear 24' mounted upon the lower end portion of the passageway tube 29 and meshing with a gear 25' upon a shaft 26' rotatively supported in bearings 21'. A pair of connected bevel gears 28' are arranged upon the gear shaft l6 and the shaft 26 respectively. Fig. 5 shows the piston II in its top position and shows the passageway tube 29 in a different position.

Figs. 6 to 13 inclusive illustrate details-of the power unit so that the invention may be readily understood. The unit is shown applied to the four-cycle engine shown in Figs. 4 and 5. Within Figs. 4 and 5 the identical power unit is shown associated with a four-cycle engine. With nchronising the power unit with the enin the body 21 there is an induction chamber 32 for cooling a quantity oi ignitable gas mixture from the pipe 23, which goes to a carburetor or other similar device. A fan blade 33 is located transversely across the bottom of the induction chamber 32 (a theoretical bottom) and divides off a packing or compression chamber 34 directly below the induction chamber 32. A means is provided for packing or compressing a gas mixture in the induction chamber 32, into the chamleer 34, and this means includes the fan 33. A cluster of explosion chambers 35 surround the packing and compression chamber 34. There is a means for controlling the flow of thegas mixture in pie-determined sequence from the packing and compression chamber 34 to the cluster of explosion chambers 35. This means includes a cup 33 with a port opening 31 alignable with port openings 33 communicating with the chambers. 35.

A means is provided for prematurely igniting the gases in the combustion chambers in a predetermined sequence and this means includes the spark plugs 33. There is also a means for conmeeting in sequence the said explosion chambers with the cylinder l5, in sequence, and synchronized with the running of the engine to deliver a power stroke with each downward motion of the piston l1 of the said cylinder i5. This means includes the passageway tube 23.

The induction chamber 32 and the packing and compression chamber 34 are located at the center of the cluster of explosion chambers 35. These latter chambers are arranged around the former chambers. As illustrated on the drawings there are three explosion chambers in the cluster, though this is merely by way of illustration since any number may be used. The fan 33 is mounted upon a shaft 43 which extends through a disc 4i located below the extends through a larger disc 42 which extends across the bottoms of the explosion chambers 35 and forms the bottoms for these chambers. A nut 43 serves to fixedly connect the shaft 43 upon the disc 42. The disc and shaitare arranged coaxially. The cup 35 is flxed on the shaft 43 to rotate with the shaft. The walls of the cup 33 are in intimate contact with the inner wall of the chamber 34, and a rotating fit therein. The

port 31 is in the wall of the cup and is selectively alignable with the ports 33 which extehd through the wall of the chamber 34 and the explosion chambers 35. The arrangement is such that as the cup rotates there will be periods in which the port 31 aligns in succession with the different ports 33 and the compressed and packed gas mixture will flow from the packing and compression chamber 34 to the explosion chambers.

Each of the spark plugs 33 is of standard design, and are intended to be connected in an ignition circuit not illustrated on the drawings,

since such circuit forms no part of the invention. Each spark plug is controlledby a switch which is mounted adjacent the periphery of the disc '42 and upon the body 2|. Each switch comprises, essentially, a pair of insulated contacts 45 which are mounted within a cavity 43 in the wall of the body 2i immediately Hdjacent the periphcry of the disc 42. On the disc 52 there is a wiper spring contact 41 which is adapted-to extend into the cavity 43 as the disc 42 turns and connect the pair of contacts 45. The contacts 45 are connected in a circuit 43 controlling the spark plugs. The arrangement is such that one pair of contacts-45 controls the operation of one of the cup 33. The shaft 43 also spark plugs 33 and the parts are synchronized so that the spark plug 33 in the explosion cylinder 35 which is connected with the top of the cylinder i5, as hereinafter more fully described, operates at the proper moment. The details of the circuit 43 ,willnot be given in this specification since it forms no part or the invention and any one familiar with electrical circuits in internal combustion engines would readily understand its construction and arrangement. f

The means for connecting in'sequence the explosion chambers. 35 with the cylinder i5 and synchronized with the running of the engine to deliver a power stroke for each downward motion of the piston i1 and which includes the passageway tube 23; is constructed and operates as follows:

The disc 42 is formed with a port opening 48 cccentrically thereof and at a location to align with the bottom ends of the explosion chambers 35 as the disc 32 rotates. The passagewaytube '23 has its upper end engaged into the port 43.

. The-passageway 23 is of double elbow shape, that is, substantially like the letter s, and has its inside profile of substantially frusto-conical shape so that the gases may expand slightly during their travel from the explosion chamber to the cylinder l5. The lower end of. the passageway tube 23 extends through a disc 43 which is rotatively supported in the top end of the cylinder 15. Thus. the passageway. tube 23 may discharge into the top of the cylinder.

Uponfan outer portion. of the tube 23 there is mounted the said gear 24' which meshes with the said gear 25', and hence the other driving parts which connect it with thecrank shaft of the engine as already described. The inner end of the passageway tube 23 is also provided with a gear, the gear 53. This gear meshes with a pinion 51 fixedly mounted on a shutter 52. The pinion 51 is coaxially rotatively supported in the top of the cylinder l5. The shutter 52 is capable of extending across the open inner end of the passageway tube 23 to close the tube. It is also capable of rotating about the axis of the gear 5i and assume a position extended across the exhaust portion i341 at the top of the cylinder 15' which connects with the exhaust pipe 13'. The shutter 52 works against an internal flange or seat 53 formed within the cylinder. l5 near the very top thereof. This shutter 52 acts as a valve for the engine. There will be no need of re- I grinding this valve since its very operation keeps re-grlnding it continuously.

The means previously referred to for cushioning the shock of the explosion in each of the explosion chambers and thereafter assisting in the ejection of the ignited gases is identical for each of the explosion chambers. For each chamber it consists of a piston 34 forming the .top of the explosion chamber and slidably mounted in a slightly enlarged portion or bore in the body 2| so that there is a shoulder 55 against which is supported by a screw 53 threadediy engaging'm through the top wall of the body 2i. This screw may be turned to extend further downwards, or

be retracted upwards, and so control the pressure of the spring 33.

A look nut 33 is engaged on each screw 53 by I which it may be locked in adjusted positions.

Besides controlling the'resiliency of-each of the pistons 54 by the use of springs, such as the bers. Each chamber is provided with a one-way air valve 6| through which air may be forced into the chamber or allowed to escape from the chamher, if desired. Each chamber Ell is provided with a pressure gauge 62. It is possible to vary the pressure of the air within the chamber 59 so as to control the resiliency or cushioning efl'ect of each piston 54.

The disc 42 is suitably packed to prevent leakage around its periphery. 'Along its top peripheral portions there are flanges or shoulder portions 63 and 54. The engagement of these shoulder portions against the edge portions of the disc 42 are adjustable and controllable by the provision of a plurality of shims 65 which are interposed between the bottom edge of the body 2i and an annular member 2ia secured to the body 2| by bolts or screws 56.

To tighten up a leak it would merely be necessary that the screws 56 be removed, that the annular, member 2la be removed, that some of the shims 55 be removed; and then the annular member 2Ia and the bolts 65 replaced. The power unit body 2| is also provided with a water cooling jacket 20a. The power unit may be cooled in any other manner.

The operation of the device is as follows:

The engine is started in any conventional manner, such as by priming, cranking, or the like.

The'fan 33 will draw in the gas mixture into the induction chamber 32 through the carburetor line 23. The fan 33 will then pack and compress the gas mixture into the packing and compressing chamber 35. The fan 33 is driven by the shaft 40 which obtains its rotation directly from the disc 42. The disc 42 is turned by the passageway tube 29, which in turn is turned by the drive system which includes the gear 24', 25, etc., to the crank shaft of the engine.

The distributor cup 35 which is attached to the shaft 49 will turn along with the shaft and will reach a position in which its port 31 is aligned with the port 38 of one of the explosion chambers 35. The gas mixture will then be forcedinto the chamber 35. At the propertime the disc 42 will have trrned to a position in which the tube 29 is aligned with the particular explosion chamber 35 into which the gas' has just passed. The ignition system which includes the contacts 45, the

wiper contact 41, and the spark plug 39 will go into operation and ignite the gas mixture. The

expanding gas will force the piston 54 upwardschamber 35 through the tube 29 and against the top of the piston ll". The shutter 52 will act in synchronization with the other parts of the device. The timing of the shutter may be understood from an inspection of Figs. 13a, 13b, 13c

closed and the exhaust port i9a is open. The

piston ll' has just forced out all the exhaust gas. The piston III now starts traveling downwards and after it has been moved a very short distance, sufiicient for the shutter 52 to assume the dot and dash line position indicated by reference numeral '68, the exhaust port l9a will be closed and the passageway tube 29 will .be opened. It is at thisv instant that the ignition of the gas takes place, and then the expanding gas strikes down like a hammer blow. on the top of the piston l1, delivering its powerand forcing the piston downwards. When the piston has reached its half way downward position the shutter 52 will have reached the position shown in position of Fig. 13b. When the piston H has reached its extreme downward position the shutter 52 will be in the state shown in position of Fig. 13c.

It should be noted that now the passageway tube 29 is being closed and the port l9a is being opened. The piston now is traveling upwards and when it reaches the half way upward position the shutter will be in the state shown in position of Fig. 1301. It should be noted that thepassageway tube 29 is still closed and the burned gases are being exhausted through the port I9a. When the piston reaches its top position. the shutter will be in the state shown in position of Fig. 13a.

During a. complete cycle of the .piston I1 the passageway tube 29 will have been rotated A; of a revolution. It is pointed out that the shutter 52 travels much faster than the passageway tube 29 because of the increase in speed from the gear 5| to the gear 50. In this way the passageway tube 29 travels to each of the explosion chambers of the cluster of chambers in a regular sequence.

For each complete revolution of the piston H a.

diilerent explosion chamber 35 will be in operation, depending upon the position of the passageway tube 29, until all of the explosion chambers of the cluster of explosion chambers have been given a chance to operate. Duplica'tion'of the cycle then takes place.

It should be noted that the main cylinder I5 necessarily must be lower in temperature than it would be ifexplosions took place within its top portion as is now the practice in internal combustion engines. It should further be noted that since the explosion chambers 35 are not continuously used but rather in rotation, they have an opportunity to cool. Therefore, the temperature of each explosion chamber will be much lower than if only one explosion chamber were used. Furthermore, the radiating surfaces of the cluster of explosion chambers are much greater than the radiating surface of a single explosion chamber. For a cylinder of a given length, the power of the engine will be increased because the piston I' l may travel through a greater stroke. It is no longer necessary that therebe a compression space for the gases within the top portion of the. cylinder l5. The elimination of this area increases the possible horse power of the engine.

Another feature obtained by this invention is the lack of resistance of exhaust gases from the top of the cylinder l5 during the exhaust stroke of the piston l1.

In Fig. 14 a modification of the invention is dis closed. This modification relates to a step-up in the speed of the rotation of the fan 33, if this is desirable. According to this form, the fan 33 also separates the induction chamber 32 from the packing of the compression chamber 34 and is for the same purpose as described in the previous form of the invention. The fan 33 is mounted on a shaft 40a which is rotatively supported in a aromas 5 bearing 10 comprising the hubportion of an annular spoked member H which is secured by screws 12 within the chamber 34. The shaft 40a is merely a stud shaft and on its lower end is provided with a small gear 13 which-meshes with a gear M fixed on a shaft l5 rotatively supported in a bearing 16 supported on the annular member I I. The gear 14 meshes with a large gear ll upon the upper end of a shaftflilb'. This shaft 50b supports the distributor cup 35 and rotatively engages through the fixed disc M. The lower portion of the shaft ddccon'nects with the identical parts as the shaft M3 in the prior form.

When the shaft 50b rotates it will indirectly drive the shaft Ma. at an increased speed, depending upon the ratio oi the gears 13, M and Ti. In

other respects this form of the invention is similar to the previous form and similar parts may be identified by corresponding. reference numerals.

It should be understood that the invention has been disclosed in conjunction with certain types of engines only merely for purposes of illustration. "The many types of engine constructions,

sizes, and makes would require too many minor details to be included in this specification and would complicate matters beyond a comprehensible reading. Therefore, I reserve rights for such minor changes as may be deemed necessary and warranted to place this device on any internal combustion engine, reserving to cover any such' accessories as may be deemed necessary to be and remain'as a part of this invention, though not essential on each device or all devices, which is merely for practical uses to properly lit the attachment or power unit to the engine.

Of course, I do not wish to be limited to exact details of construction as herein shown as these may be varied within the limits of the appended claims without departing from the spirit or the scope of my invention. It should be clearly understood that the device is applicable to uses with all types of gasoline fueled engines and other internal combustion engines on general engine principles and having electrical firing equipment. It is to be further understood that the same is susceptibleoi changes, modifications and im-' provements coming within the scope of the appended claims.

Having thus described 'my invention, what I claim as new and desire to secure by United States Letters Patent is:

lxIn a device of the class described, a cylinder tube of substantially-S-shape having one end connected with said port hole and the other end coaxial with said disc and connected with the top of said cylinder to direct partially expanded gases against said piston, means for rotating said passageway tube about its latter mentioned end and synchronized with said crank to connect each of said chambers in rotation with the cylinder for each cycle of the piston, an exhaust from said cyl inder having its inner end in a plane with the end of said passageway tube, a i-otative valve disc selectively engageable over the inner end of said.

exhaust and the end of said passageway tube, and means for rotating said valve synchronized with said passageway tube and eng'ageableover said exhaust-end and passageway tube end for each position of the passageway tube as the latter selectively connects with said chambers.

2. In a device of the class described, a] cylinder with a piston therein reciprocative by a crank, a

cluster or explosion chambers for prematurely igniting and expanding gases to supply the power stroke ofgsaid piston in said cylinder and said chambers having their base ends open and in a plane, a disc rotatively mounted and forming a closure for said open base ends and having a port hole selectively alignable with said chambers during rotation of said disc, a' passageway tube of substantially Sshape having one end'ccnnected with said port hole and the other end coaxial with said disc and connected with the top of said cylinder to direct partially expanded gases against said piston, means for rotating said passageway tube about its latter-mentioned end and synchronized with said crank to connect each of saidchambers in rotation with the cylinder for each cycle of the piston-an exhaust from said cylinder having its inner end in a plane with the end of said passageway tube, a rotative valve disc selectively engageable over the inner end of said exhaust andthe end of said passageway tube, means for rotating said valve synchronized with said passageway tube and engageable over said exhaust end and passageway'tube end for each position of the passageway tube, as the latter selectively connects with said chambers, 21 body portion connecting together the base ends of said chambers, an annular member secured to said body portion, and said disc being rotatively mounted between said body portion and said annular member.

3. In a device of the class described, a cylinder with a piston therein reciprocative by a crank, a cluster of explosion chambers for prematurely igniting and expanding gases to supply the power stroke of said piston in said cylinder and said chambers having their base ends open and in a plane, a disc rotatively mounted and forming a closure for said open base ends and having a port hole selectively alignable with saidchambers during rotation of said disc, a passageway tube of substantially S-shape having one end connected with said port hole and the other end coaxial with said disc and connected with the top of said cylinder to direct partially expanded gases against said piston, means for rotating said passageway tube about, its latter-mentioned end and synchroniced with said crank to connect each of said chambers in rotation with the cylinder foreach cycle of the piston, an exhaust from said cylinder having its inner end in a plane with the end oi said passageway tube, a. rotative valve disc selectively engageable over the inner end of said exhaust and the end of saidpassageway tube, means ior rotating said valve synchronized with said passageway tube and engageable over said exhaust end and passageway tube end for each position oi the passageway tube as the latter selectively connects with said chambers, a body portion connecting together'the base ends of raid chambers,

an annular member secured to said body portion, Y

and said disc being rotatively mounted between said body portion and said annular member, and shims interposed between said annular member and body portion for packing these parts to prevent leakage of the prematurely expanded gases.

4. In a device of the class described, a cylinder with a piston therein reciprocative by a crack, a cluster of explosion chambers for prematurely passageway tube about its latter-mentioned end and synchronized with said crank to connect each of said chambers in rotation with the cylinder for each cycle of the piston, an exhaust from said cylinder having its inner end in a plane with the end of said passageway tube, a rotative valve disc selectively engageable over the inner end of said exhaust and the end of said passageway tube; and means for rotating said valve synchronized with said passageway tube and engageable over said exhaust end and passageway tube and for each position of the passageway tube as the latter selectively connects with said chambers, said passageway tube of substantially. 8- shape being also of frusto-conical shape to permit expansion of the bases during passage therethrough.

5. In a device of the class described, a cylinder with a piston therein reciprocative by a crank,

a cluster of explosion chambers for prematurely igniting and expanding gases to supply the power strokeof said piston in said cylinder and said chambers having their base ends open and in a plane, a disc rotatively mounted and forming a closure for said open base ends and having a port hole selectively alignable with said chambers during rotation of said disc, at passageway tube of substantially S-shape having one end. connected with said port hole and the other end coaxial with said disc and connected with the top of said cylinder to direct partially expanded gases againstsaid piston, means for rotating said passageway tube about its latter -mentioned end and synchronized with said crank to connect eachof said chambers in rotation with the cylinder for each cycle of the piston; an exhaust from said cylinder having its inner end in a plane with the end of said passagewaytube, a rotative valve disc selectively engageable over the inner end of latter selectively connects with said chambers,

said means for rotating said passageway tube including a ring gear mounted about said tube coaxial with the axis oi rotation thereof, and a transmission system connected with said ring gear and with said crank.

, 6. In a device of the class described, a cylinder with. a piston therein reciprocative by a crank, a cluster of explosion chambers for prematurely igniting and expanding gases to supply the power stroke of said piston in said cylinder and said chambers having their base ends open and in a plane, a'disc rotatively mounted and forming a closure for said open base ends and having a port hole selectively alignable with said chambers during rotation of said disc, a passageway tube 01" substantially s-shape having one 'end con nected with said port hole and the other end coaxial with said disc and connected with the top of said cylinder to direct partially expanded gases against said piston, means for rotating said passageway tube about its latter-mentioned end and synchronized with said crank to connect each of said chambers in rotation with the cylinder for each cycle of the piston, an'exhaust from said cylinder having its inner end in a plane with the end of said passageway tube,

a rotative valve disc selectively engageable over the inner end of said exhaust and the end of said passageway tube, and means for rotating said valve synchronized with said passageway tube and engageable over said exhaust end and passageway tube end for each position of the passageway tube as the latter selectively connects. with said chambers, comprising a ring gear mounted on said passageway tube coaxial with the axis of rotation thereof, a pinion meshing with said ring gear and rotatively supported, and

said valve disc being fixedly mounted on said pinion to rotate therewith.

LYNN J. KOCH. 

